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Technical Papers

Computational Cameras

Monday, 25 July, 9:00 am - 10:30 am, Anaheim Convention Center, Ballroom C
Session Chair: Jiaya Jia, The Chinese University of Hong Kong

The Diffractive Achromat: Full-Spectrum Computational Imaging With Diffractive Optics

Diffractive achromat, a computationally optimized diffractive imaging system in the full visible spectrum, combines optimization in both diffractive optical design and post-capture image reconstruction. In this paper, a prototype diffractive achromat on a 0.5mm ultra-thin glass plate validates the concept.

Yifan Peng
The University Of British Columbia

Qiang Fu
King Abdullah University Of Science And Technology

Felix Heide
The University Of British Columbia

Wolfgang Heidrich
King Abdullah University Of Science And Technology

Practical Multispectral Lighting Reproduction

A practical approach to recording spectrally complex lighting environments and reproducing the lighting on an actor using a sphere with multispectral LED light sources. The method achieves realistic composites that agree closely with photographs, and the technique can be applied to video with dynamic lighting.

Chloe LeGendre
USC Institute for Creative Technologies

Xueming Yu
USC Institute for Creative Technologies

Dai Liu
USC Institute for Creative Technologies

Jay Busch
USC Institute for Creative Technologies

Andrew Jones
USC Institute for Creative Technologies

Sumanta Pattanaik
University of Central Florida

Paul Debevec
USC Institute for Creative Technologies

Computational Imaging With Multi-Camera Time-of-Flight Systems

This exploration of phased time-of-flight camera arrays develops a reproducible hardware system that allows for exposure times and waveforms of up to three cameras to be synchronized. The method tailors and optimizes the waveforms that drive the temporally coded illumination and on-sensor demodulation codes.

Shikhar Shrestha
Stanford University

Felix Heide
Stanford University

Wolfgang Heidrich
King Abdullah University of Science and Technology

Gordon Wetzstein
Stanford University

Occluded Imaging With Time-of-Flight Sensors

In this theoretical analysis of the non-line-of-sight "looking around corners" problem, recovery guarantees are provided with a theoretical framework similar to approaches in compressive holography.

Achuta Kadambi
Massachusetts Institute of Technology

Hang Zhao
MIT Media Lab

Boxin Shi
Nanyang Technological University

Ramesh Raskar
MIT Media Lab